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مروری بر انتقال جنین و اهمیت این فناوری در گاوهای گوشتی و شیری | ||
علمی- ترویجی (حرفهای) دامِستیک | ||
دوره 23، شماره 1 - شماره پیاپی 25، خرداد 1402، صفحه 42-51 اصل مقاله (1.68 M) | ||
نوع مقاله: مقاله علمی- ترویجی | ||
شناسه دیجیتال (DOI): 10.22059/domesticsj.2023.356970.1123 | ||
نویسندگان | ||
مطلب ابراهیمی* 1؛ محمدجواد کریمی ثابت2 | ||
1دانشجوی دکتری تخصصی تغذیه طیور، گروه مهندسی علوم دامی، دانشکده کشاورزی دانشگاه ارومیه، ارومیه، آذربایجان غربی، ایران | ||
2دانشجوی دکتری تخصصی فیزیولوژی دام، گروه مهندسی علوم دامی، دانشگاه علوم کشاورزی و منابع طبیعی خوزستان، خوزستان، ایران | ||
چکیده | ||
در دهههای اخیر همگام با ایجاد روشهای کمک تولید مثلی مختلف و مساعدت آنها در امر باروری و تولیدمثل در گاو پیشرفتهای زیادی به وقوع پیوسته است که میتوان به مواردی از قبیل همزمان سازی فحلی، تلقیح مصنوعی، فرآیند چند تخمکریزی، همانندسازی، حصول جنین و انتقال آن، لقاح آزمایشگاهی، انجماد و تولید حیوانات تراریخته اشاره نمود. در میان این دسته از فناوریها، انتقال جنین، به جهت تولید نتاج متعدد از یک گاو ماده برتر از نقطه نظر ژنتیکی، به اهمیت زیادی دست یافته است. در فرآیند انتقال جنین، اقداماتی همانند جمعآوری جنین از گاوهای دهندۀ برتر از لحاظ کیفی و سپس انتقال آنها به گاوهای گیرنده تا پایان دوره رشد و آبستنی به مرحله اجرا در میآید. این فناوری مواردی از قبیل انتخاب گاوهای دهنده و گیرنده، اعمال مدیریت بر روند ارزیابی مطلوب و بهینه در اصلاح نژاد، تولید جنین، جمعآوری و انتقال آن در یک محدوده زمانی اندک و مناسب در چرخه فحلی را در بر میگیرد. این تکنولوژی در گاوها تنها با هدف دستیابی به افزایش نرخ تولید مثل در گاوهای ماده برتر و اصلاح شده از نقطه نظر ژنتیکی، آمیزشهای برنامهریزی شده، دوقلوزایی، کنترل بیماریها و امراض، نرخ آبستنی مطلوب در گاوهای ماده واکل، ازدیاد تولید و نرخ تولید مثل در مزرعه در سطح وسیعی مورد استفاده قرار گرفته است. این مقاله جزئیات برخی از موارد همانند فناوری تولید جنین، انتقال جنین از گاو دهنده به گاو گیرنده و عوامل لازم و ضروری برای انتقال و تولید نتاج را مورد بازنگری و بررسی قرار میدهد. | ||
کلیدواژهها | ||
انتقال جنین؛ انتخاب دام دهنده؛ تولید جنین؛ چند تخمکریزی؛ نرخ آبستنی | ||
مراجع | ||
Abdelatty, A. M., Iwaniuk, M. E., Potts, S. B. and Gad, A. (2018). “Influence of maternal nutrition and heat stress on bovine oocyte and embryo development.” International Journal of Veterinary Science and Medicine, 6, 1-5. Adifa, N. S., Astuti, P. and Widayati, D. T. (2010). “Pengaruh Penambahan Chorionic Gonadotrophin pada Medium Maturasi terhadap Kemampuan Maturasi, Fertilisasi, dan Perkembangan Embrio secara In Vitro Kambing Peranakan Ettawa (The Effect of Chorionic Gonadotrophin Addition Into Maturation Medium on The Abili.” Buletin Peternakan, 34(1), 8-15. Ahmed, N., Kathiresan, D., Ahmed, F. A., Lalrintluanga, K., Mayengbam, P. and Gali, J. M. (2016). “Initiating Ovsynch on day 6 post estrus onset±post AI early luteal phase GnRH treatment to improve ovarian and fertility response in repeat breeding crossbred cattle.” The Indian Journal of Animal Reproduction, 37(1). Alkan, H., Karaşahin, T., Dursun, Ş., Satılmış, F., Erdem, H. and Güler, M. (2020). “Evaluation of the factors that affect the pregnancy rates during embryo transfer in beef heifers.” Reproduction in Domestic Animals, 55(4), 421-428. Arkadiusz, N. (2021). “ET as an option to improve fertility in repeat breeder dairy cows.” Journal of Veterinary Research, 65. Baruselli, P. S., Ferreira, R. M., Vieira, L. M., Souza, A. H., Bó, G. A. and Rodrigues, C. A. (2020). “Use of embryo transfer to alleviate infertility caused by heat stress.” Theriogenology, 155, 1-11. Baruselli, P. S., Soares, J. G., Gimenes, L. U., Monteiro, B. M., Olazarri, M. J. and Carvalho, N. A. T. D. (2013). “Control of buffalo follicular dynamics for artificial insemination, superovulation and in vitro embryo production.” Buffalo Bull, 32(1), 160-167. Batista, E. O. S., Macedo, G. G., Sala, R. V., Ortolan, M. D. D. V., Sá Filho, M. F. D., Del Valle, T. A. and Baruselli, P. S. (2014). “Plasma antimullerian hormone as a predictor of ovarian antral follicular population in Bos indicus (Nelore) and Bos taurus (Holstein) heifers.” Reproduction in Domestic Animals, 49(3), 448-452. Batista, E. O. S., Guerreiro, B. M., Freitas, B. G., Silva, J. C. B., Vieira, L. M., Ferreira, R. M. and Baruselli, P. S. (2016). “Plasma anti-Müllerian hormone as a predictive endocrine marker to select Bos taurus (Holstein) and Bos indicus (Nelore) calves for in vitro embryo production.” Domestic Animal Endocrinology, 54, 1-9. Besbaci, M., Abdelli, A., Belabdi, I. and Raboisson, D. (2021). “Non-steroidal anti-inflammatory drugs at embryo transfer on pregnancy rates in cows: A meta-analysis.” Theriogenology, 171, 64-71. Besenfelder, U., Brem, G. and Havlicek, V. (2020). “Environmental impact on early embryonic development in the bovine species.” Animal, 14(1), 103-112. Bó, G. A. and Mapletoft, R. J. (2020). “Superstimulation of ovarian follicles in cattle: Gonadotropin treatment protocols and FSH profiles.” Theriogenology, 150, 353-359. Bollman, M., Greenhawk, A., Shipley, A. and Gibbons, P. (2020). “Ovarian profile and pregnancy rates following ovulation synchronization and timed-artificial insemination in dairy cows.” College of Veterinary Medicine. Lincoln MU, 1291-1300. Choudhary, K. K., Kavya, K. M., Jerome, A. and Sharma, R. K. (2016). “Advances in reproductive biotechnologies.” Veterinary World, 9(4), 388. Cotter, P. F. (2017). “Research Article Basophilia and Basophiliosis in Caged Hens at 18 and 77 Weeks.” International Journal of Poultry Science, (16), 23-30. Cowan, T. and Becker, G. S. (2010). “Biotechnology in Animal Agriculture: Status and Current Issues.” Congressional Research Service. Crowe, A. D., Lonergan, P. and Butler, S. T. (2021). “Invited review: Use of assisted reproduction techniques to accelerate genetic gain and increase value of beef production in dairy herds.” Journal of Dairy Science, 104(12), 12189-12206. Danchuk, O. V., Karposvkii, V. I., Tomchuk, V. A., Zhurenko, O. V., Bobryts’ ka, O. M. and Trokoz, V. O. (2020). “Temperament in cattle: a method of evaluation and main characteristics.” Neurophysiology, 52, 73-79. Das, D. N., Paul, D. and Mondal, S. (2022). “Role of biotechnology on animal breeding and genetic improvement.” In Emerging Issues in Climate Smart Livestock Production (pp. 317-337). Academic Press. Dias, F. C. F., Dadarwal, D., Adams, G. P., Mrigank, H., Mapletoft, R. J. and Singh, J. (2013). “Length of the follicular growing phase and oocyte competence in beef heifers.” Theriogenology, 79(8), 1177-1183. Dochi, O. (2019). “Direct transfer of frozen-thawed bovine embryos and its application in cattle reproduction management.” Journal of Reproduction and Development, 65(5), 389-396. Dochi, O., Takahashi, K., Hirai, T., Hayakawa, H., Tanisawa, M., Yamamoto, Y. and Koyama, H. (2008). “The use of embryo transfer to produce pregnancies in repeat-breeding dairy cattle.” Theriogenology, 69(1), 124-128. Faizah, H. M. S., Richard, F., Meena, P., Stanley, K. L., Amriana, H., Alhassany, A. and Saipul, B. A. R. (2018). “Multiple ovulation embryo transfer (MOET) in dairy cattle in Gatton.” Malaysian journal of veterinary research, 9(2), 109-116. Ferreira, R. M., Ayres, H., Chiaratti, M. R., Ferraz, M. L., Araújo, A. B., Rodrigues, C. A. and Baruselli, P. S. (2011). “The low fertility of repeat-breeder cows during summer heat stress is related to a low oocyte competence to develop into blastocysts.” Journal of Dairy Science, 94(5), 2383-2392. Forde, N., Carter, F., di Francesco, S., Mehta, J. P., Garcia-Herreros, M., Gad, A. and Lonergan, P. (2012). “Endometrial response of beef heifers on day 7 following insemination to supraphysiological concentrations of progesterone associated with superovulation.” Physiological Genomics, 44(22), 1107-1115. Frade, M. C., Frade, C., Cordeiro, M. B., de Sá Filho, M. F., Mesquita, F. S., de Paula Nogueira, G. and Membrive, C. M. B. (2014). “Manifestation of estrous behavior and subsequent progesterone concentration at timed-embryo transfer in cattle are positively associated with pregnancy success of recipients. “Animal Reproduction Science, 151(3-4), 85-90. Gaddis, K. P., Dikmen, S. E. R. D. A. L., Null, D. J., Cole, J. B. and Hansen, P. J. (2017). “Evaluation of genetic components in traits related to superovulation, in vitro fertilization, and embryo transfer in Holstein cattle.” Journal of Dairy Science, 100(4), 2877-2891. Gadisa, M., Walkite, F. and Misgana, D. (2019). “Review on ET and its application in animal production. Asian.” Journal of Research in Medical Sciences, 1: 04-12. Garcia-Guerra, A., Sala, R. V., Baez, G. M., Fosado, M., Melo, L. F., Motta, J. C. L. and Wiltbank, M. C. (2016). “Treatment with GnRH on day 5 reduces pregnancy loss in heifers receiving in vitro-produced expanded blastocysts.” Reproduction, Fertility and Development, 28(2), 185-186. Gómez-Seco, C., Alegre, B., Martínez-Pastor, F., Prieto, J. G., González-Montaña, J. R., Alonso, M. E. and Domínguez, J. C. (2017). ‘Evolution of the corpus luteum volume determined ultrasonographically and its relation to the plasma progesterone concentration after artificial insemination in pregnant and non-pregnant dairy cows.” Veterinary Research Communications, 41, 183-188. Grymak, Y., Skoromna, O., Stadnytska, O., Sobolev, O., Gutyj, B., Shalovylo, S. and Bratyuk, V. (2020). “Influence of “Thireomagnile” and “Thyrioton” preparations on the antioxidant status of pregnant cows with symptoms of endotoxicosis.” Ukrainian Journal of Ecology, 10(1), 122-126. Hansen, P. J. (2020). “Implications of assisted reproductive technologies for pregnancy outcomes in mammals.” Annual Review of Animal Biosciences, 8, 395-413. Hasler, J. F. (2014). “Forty years of embryo transfer in cattle: A review focusing on the journal Theriogenology, the growth of the industry in North America, and personal reminisces.” Theriogenology, 81(1), 152-169. Heikkilä, A. M. and Peippo, J. (2012). “Optimal utilization of modern reproductive technologies to maximize the gross margin of milk production.” Animal Reproduction Science, 132(3-4), 129-138. Humblot, P., Le Bourhis, D., Fritz, S., Colleau, J. J., Gonzalez, C., Guyader Joly, C. and Ponsart, C. (2010). “Reproductive technologies and genomic selection in cattle.” Veterinary Medicine International, 2010. Jaton, C., Koeck, A., Sargolzaei, M., Malchiodi, F., Price, C. A., Schenkel, F. S. and Miglior, F. (2016). “Genetic analysis of superovulatory response of Holstein cows in Canada.” Journal of Dairy Science, 99(5), 3612-3623. Khan, S. U., Jamal, M. A., Su, Y., Wei, H. J., Qing, Y. and Cheng, W. (2022). “Towards Improving the Outcomes of Multiple Ovulation and Embryo Transfer in Sheep, with Particular Focus on Donor Superovulation.” Veterinary Sciences, 9(3), 117. Loi, P., Toschi, P., Zacchini, F., Ptak, G., Scapolo, P. A., Capra, E. and Williams, J. L. (2016). “Synergies between assisted reproduction technologies and functional genomics.” Genetics Selection Evolution, 48(1), 1-7. Mattos, M. C. C., Bastos, M. R., Guardieiro, M. M., Carvalho, J. O., Franco, M. M., Mourão, G. B. and Sartori, R. (2011). “Improvement of embryo production by the replacement of the last two doses of porcine follicle-stimulating hormone with equine chorionic gonadotropin in Sindhi donors.” Animal Reproduction Science, 125(1-4), 119-123. Maxwell, W. M. C., Evans, G., Hollinshead, F. K., Bathgate, R., De Graaf, S. P., Eriksson, B. M. and O’Brien, J. K. (2004). “Integration of sperm sexing technology into the ART toolbox.” Animal Reproduction Science, 82, 79-95. Mebratu, B., Fesseha, H. and Goa, E. (2020). “ET in cattle production and its principle and applications.” Pharmaceutical and Biomedical Research, 7: 40-54. Moore, S. G. and Hasler, J. F. (2017). “A 100-Year Review: Reproductive technologies in dairy science.” Journal of Dairy Science, 100(12), 10314-10331. Mori, M., Hayashi, T., Isozaki, Y., Takenouchi, N. and Sakatani, M. (2015). “Heat shock decreases the embryonic quality of frozen-thawed bovine blastocysts produced in vitro.” Journal of Reproduction and Development, 61(5), 423-429. Nicholas, F. W. and Smith, C. (1983). “Increased rates of genetic change in dairy cattle by embryo transfer and splitting.” Animal Science, 36(3), 341-353. Núñez-Olivera, R., Cuadro, F., Bosolasco, D., de Brun, V., de la Mata, J., Brochado, C. and Menchaca, A. (2020). “Effect of equine chorionic gonadotropin (eCG) administration and proestrus length on ovarian response, uterine functionality and pregnancy rate in beef heifers inseminated at a fixed-time.” Theriogenology, 151, 16-27. Oguejiofor, C. F. (2019). “Prospects in the utilization of assisted reproductive technologies (ART) towards improved cattle production in Nigeria.” Nigerian Journal of Animal Production, 46(5), 73-80. Palanisammi, A., Satheshkumar, S. and Rangasamy, S. (2020). “Superovulatory response and embryo yield in buffaloes (Bubalus bubalis).” Pakistan Journal of Zoology, 8: 1468-1470. Peixoto, M. G. C. D., Bergmann, J. A. G., Fonseca, C. G., Penna, V. M. and Pereira, C. S. (2006). “Effects of environmental factors on multiple ovulation of zebu donors.” Arquivo Brasileiro de Medicina Veterinária e Zootecnia, 58, 567-574. Peter, J.H. (2019). "Embryo and cow factors affecting pregnancy per embryo transfer for multiple-service, lactating Holstein recipients." Translational Animal Science 3, no. 1 (2019): 60-65. Pugliesi, G., Oliveria, M. L., Scolari, S. C., Lopes, E., Pinaffi, F. V., Miagawa, B. T. and Binelli, M. (2014). “Corpus luteum development and function after supplementation of long‐acting progesterone during the early luteal phase in beef cattle.” Reproduction in Domestic Animals, 49(1), 85-91. Rico, C., Drouilhet, L., Salvetti, P., Dalbies-Tran, R., Jarrier, P., Touzé, J. L. and Monniaux, D. (2012). “Determination of anti-Müllerian hormone concentrations in blood as a tool to select Holstein donor cows for embryo production: from the laboratory to the farm.” Reproduction, Fertility and Development, 24(7), 932-944. Rodrigues, M. C. C., Bonotto, A. L. M., Acosta, D. A. V., Boligon, A. A., Corrêa, M. N. and Brauner, C. C. (2018). “Effect of oestrous synchrony between embryo donors and recipients, embryo quality and state on the pregnancy rate in beef cattle.” Reproduction in Domestic Animals, 53(1), 152-156. Roman, L., Sidashova, S., Danchuk, O., Popova, I., Levchenko, A., Chornyi, V. and Gutyj, B. (2020). “Functional asymmetry in cattle ovaries and donor-recipients embryo.” Ukrainian Journal of Ecology, 10(3), 139-146. Roper, D. A., Schrick, F. N., Edwards, J. L., Hopkins, F. M., Prado, T. M., Wilkerson, J. B. and Smith, W. B. (2018). “Factors in cattle affecting embryo transfer pregnancies in recipient animals.” Animal Reproduction Science, 199, 79-83. Santos, P. H., Satrapa, R. A., Fontes, P. K., Franchi, F. F., Razza, E. M., Mani, F. and Castilho, A. C. S. (2018). “Effect of superstimulation on the expression of microRNAs and genes involved in steroidogenesis and ovulation in Nelore cows.” Theriogenology, 110, 192-200. Sirard, M. A. (2018). “40 years of bovine IVF in the new genomic selection context.” Reproduction, 156(1), R1-R7. Smith, M. F., Geisert, R. D. and Parrish, J. J. (2018). “Reproduction in domestic ruminants during the past 50 yr: discovery to application.” Journal of Animal Science, 96(7), 2952-2970. Souza, A. H., Carvalho, P. D., Rozner, A. E., Vieira, L. M., Hackbart, K. S., Bender, R. W. and Wiltbank, M. C. (2015). “Relationship between circulating anti-Müllerian hormone (AMH) and superovulatory response of high-producing dairy cows.” Journal of Dairy Science, 98(1), 169-178. Souza-Fabjan, J. M., Batista, R. I., Correia, L. F., Paramio, M. T., Fonseca, J. F., Freitas, V. J. and Mermillod, P. (2021). “In vitro production of small ruminant embryos: Latest improvements and further research.” Reproduction, Fertility and Development, 33(2), 31-54. Tiwari, I., Shah, R., Kaphle, K. and Gautam, M. (2019). “Treatment approach of different hormonal therapy for repeat breeding dairy animals in Nepal.” Archives of Veterinary Science and Medicine, 2(3), 28-40. Tríbulo, A., Rogan, D., Tríbulo, H., Tríbulo, R., Mapletoft, R. J. and Bó, G. A. (2012). “Superovulation of beef cattle with a split-single intramuscular administration of Folltropin-V in two concentrations of hyaluronan.” Theriogenology, 77(8), 1679-1685. Viana, J. (2019). “2018 Statistics of embryo production and transfer in domestic farm animals.” Embryo Technology Newsletter, 36(4), 17. Viana, J. H. M., Figueiredo, A. C. S. and Siqueira, L. G. B. (2018). “Brazilian embryo industry in context: pitfalls, lessons, and expectations for the future.” Animal Reproduction (AR), 14(3), 476-481. Wahjuningsih S. and Djati, S. (2013). “Ultrastructure of goat’s oocyte after cryopreservation using vitrification method. Animal Reproduction Department, Faculty of Animal Husbandry, University of Brawijaya.”Journal of Veterinary Medicine, 7: 101-104. Wallace, L. D., Breiner, C. A., Breiner, R. A., Spell, A. R., Carter, J. A., Lamb, G. C. and Stevenson, J. S. (2011). “Administration of human chorionic gonadotropin at embryo transfer induced ovulation of a first wave dominant follicle, and increased progesterone and transfer pregnancy rates.” Theriogenology, 75(8), 1506-1515. Watanabe, Y. F., de Souza, A. H., Mingoti, R. D., Ferreira, R. M., Batista, E. O. S., Dayan, A. and Baruselli, P. S. (2018). “Number of oocytes retrieved per donor during OPU and its relationship with in vitro embryo production and field fertility following embryo transfer.” Animal Reproduction (AR), 14(3), 635-644. Wrathall, A. E., Simmons, H. A., Bowles, D. J. and Jones, S. (2003). “Biosecurity strategies for conserving valuable livestock genetic resources.” Reproduction, Fertility and Development, 16(2), 103-112. Wray-Cahen, D., Bodnar, A., Rexroad, C., Siewerdt, F. and Kovich, D. (2022). “Advancing genome editing to improve the sustainability and resiliency of animal agriculture.” CABI Agriculture and Bioscience, 3(1), 1-17. Wu, B. and Zan, L. (2012). “Enhance beef cattle improvement by embryo biotechnologies.” Reproduction in Domestic Animals, 47(5), 865-871. | ||
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